Water-soluble reactive xanthenium dyestuffs

ABSTRACT

A WATER-SOLUBLE REACTIVE XANTHENIUM DYESTUFF OF THE FORMULA 1   (9-(2-((-)O3S-),R,R&#39;&#39;-PHENYL),6-(R1-N(-R2)-)XANTHYLIUM-3-   YL)-N(-R3)-(W)M-A-((CH2)N-Y)P-   WHEREIN R REPRESENTS HYDROGEN, CHLORINE, HYDROXYL, LOWER, ALKOXY, LOWER ALKYL, CARBOXYL OR A SULFONIC ACID GROUP, R&#39;&#39; REPRESENTS HYDROGEN OR CARBOXYL, R1 STANDS FOR LOWER ALKYL, CARBOXYL-LOWER ALKYL, HO3S LOWER ALKYL,   HO3S-O-   LOWER ALKYL, LOWER ALKYL-PHENYL OR CYCLOHEXYL, R2 STANDS FOR HYDROGEN, LOWER ALKYL, CARBOXYL-LOWER ALKY, AND R1 AND R2 REPRESENT TOGETHER WITH THE NITRGOEN ATOM MORPHOLYL OR PIPERIDYL, R3 REPRESENTS HYDROGEN OR LOWER ALKYL, A STANDS FOR PHENYLENE, BIPHENYLENE, NAPHTHYLENE, NITRO DIPHENYLAMINE, LOWER ALKYL-AZO-PHENYL, LOWER ALKYL-PHENYLENE, LOWER ALKOXY-PHENYLENE, LOWER ALKYL-ALKOXY-PHENYLENE, CARBOXY-PHENYLENE, HYDROXY-PHENYLENE, MONOSULFOPHENYLENE, CHLOROPHENYLENE, AND W REPRESENTS AS A BIVALENT BRIDGING MEMBER-CH2-,-NH-,   -C6H4-CO-NH-, OR -C6H4-SO2-NH-   Y REPRESENTS A GROUPING OF THE FORMULA   -(N(-R4))Q-SO2-CH=CH2, OR -N(-R4)-SO2-(CH2)2-Z   WHEREIN Z STANDS FOR HYDROXYL OR CHLORINE, AN ARYLSULFONIC ACID ESTER GROUP, LOWER ALKYLSULFONIC ACID ESTER GROUP, THIOSULFURIC ACID ESTER GROUP, PHOSPHORIC ACID ESTER GROUP, SULFURIC ACID ESTER GROUP, DIALKYLAMINO, ACETYL OR PHENOXY, R4 REPRESENTS HYDROGEN OR OWER ALKYL, M AND N STAND FOR 0, 1 OR 2, Q FOR 0 OR 1 AND P FOR 1 OR 2, SAID SAID DYESTUFFS BEING SUITABLE FOR THE DYEING OR PRINTING OF LEATHER, WOOL, SILK OR POLYAMIDE OR POLYURETHANE FIBRES, AND PARTICULARLY OF NATIVE OR REGENERATED CELLULOSE FIBRES, THE DYEINGS AND PRINTS OBTAINED ON SAID FIBROUS MATERIALS BEING DISTINGUISHED BY BLUISH RED TO VIOLET SHADE AND BY GOOD FASTNESS TO WET PROCESSING.

United States Patent 3,772,335 WATER-SOLUBLE REACTIVE XANTHENIUM DYESTUFFS Fritz Meiuinger, Frankfurt am Main, and Folker Kohlhaas, Kelkheim, Taunus, Germany, assiguors to Farbwerke Hoechst Aktiengesellschaft vormals Meister Lucius & Bruning, Frankfurt am Main, Germany No Drawing. Filed Nov. 4, 1970, Ser. No. 86,941 Claims priority, application Germany, Nov. 6, 1969,

Int. Cl. C07d 7/42 US. Cl. 260-336 9 Claims ABSTRACT OF THE DISCLOSURE A water-soluble reactive xanthenium dyestuif of the Formula 1 wherein R represents hydrogen, chlorine, hydroxyl, lower alkoxy, lower alkyl, carboxyl or a sulfonic acid group, R represents hydrogen or carboxyl, R stands (for lower alkyl, carboxyl-lower alkyl, H0 8 lower alkyl,

lower alkyl, lower alkyl-phenyl or cyclohexyl, R stands for hydrogen, lower alkyl, carboxyl-lower alky, and R and R represent together with the nitrogen atom morpholyl or piperidyl, R represents hydrogen or lower alkyl, A stands for phenylene, biphenylene, naphthylene, nitro diphenylamine, lower alkyl-azo-phenyl, lower alkyl-phenylene, lower alkoxy-phenylene, lower alkyl-alkoxy-phenylene, carboxy-phenylene, hydroxy-phenylene, monosulfopheuylene, chlorophenylene, and W represents as a bivalent bridging member -CH -NH-,

CONH- S OzNH- Y represents a grouping of the formula N Q SOZCH=CHZ (2) wherin Z stands for hydroxyl or chlorine, an arylsulfonic acid ester group, lower alkylsulfonic acid ester group, thiosulfuric acid ester group, phosphoric acid ester group, sulfuric acid ester group, dialkylamino, acetyl or phenoxy, R represents hydrogen or lower alkyl, m and n stand for 0, 1 or 2, q for 0 or 1 and p for 1 or 2, said said dyestuffs being suitable for the dyeing or printing of leather, wool, silk or polyamide or polyurethane fibres, and particularly of native or regenerated cellulose fibres,

3,772,335 Patented Nov. 13, 1973 The present invention concerns new reactive Xanthenium dyes ufis of the Formula 1 wherein R and R represent hydrogen atoms, halogen atoms such as fluorine, chlorine or bromine atoms, or hydroxyl, alkyl, alkoxy, carboxyl or sulfonic acid groups, R and R stand for hydrogen atoms or alkyl groups which may be substituted by halogen atoms or hydroxyl-, carboxyl-, sulfonic acid or phenyl groups or OSO H-- or --HN-acy1 groups and R and R may together with the nitrogen atom represent an alkylene imine ring optionally containing heterogen atoms, for example the radical of piperidine or morpholine, R represents a hydrogen atom or an alkyl group, A stands for a mono-nuclear or binuclear aromatic radical, for example a phenylene or naphthylene group or a diphenyl, diphenyl ether, diphenyl amine, diphenyl sulfide, diphenyl sulfone or azobenzene radical, the aromatic nucleus of which may be substituted by halogen atoms, lower alkyl groups, lower alkoxy groups, hydroxy-, carboxyl-, sulfonic acid or nitro groups, and W represents a bivalent bridging member, such as the group -CH -CH CH NH---,

Y represents a grouping of the formula in which Z stands for the hydroxyl group or an organic or inorganic substituent capable of being split off by means of an alkaline agent, R represents a hydrogen atom or an alkyl group, m and n each stand for O, 1 or 2, q stands for 0 or 1, and p stands for 1 or 2, and a process for their preparation.

As substituent Z which may be split off by means of alkaline agent there are considered for example: halogen atoms, such as chlorine or bromine atoms, an alkylsulfonic acid ester group or arylsulfonic acid ester group, an acyloxy group, such as the acetoxy group, furthermore the phenoxy group or a dialkylamino group, such as the dimethylor diethylamino group, moreover the thiosulfuric acid ester group, the phosphoric acid ester group and especially the sulfuric acid ester group.

3 4 The new xanthenium dyestuffs of the above General ample dimethyl or diethylamine or with phenol, into Formula 1 may be prepared by reacting 1 mol of a didyestuffs having the General Formula 1, in which Z reprehalogen xanthylium compound of the general Formula 4 sents S-SO H, -N(a1kyl) or Suitable sulfatizing agents are for example concentrated sulfuric acid, chlorosulfonic acid, amidosulfonic acid or compounds yielding sulfur trioxides. Suitable phosphorylating agents are for example concentrated phosphoric acid, pyro-, metaor polyphosphoric acid, polyphosphoric acid alkyl ester, phosphoroxy chloride or mixtures of phosphoric acid and phosphorus-(V)- (4) oxide. As halogenatingagents there are used for example in which the substituents B represent chlorine or bromine thlonylchlonde or thlonylbromlde' atoms and R and have the above meanings, with at As dihalogen compounds suitable according to the inleast 1 mol of an amino compound having the general vention having the Formula 4 there are considered, for

Formula 5 example B|\ 1'1, 3,6-dichloro-xanthylium-9-phenyl-4-suEo-T-suplfonate,

3,6-dichloro-xanth lium-9- hen l-4-su o-2'-sulfonate, H/N[w]m A T -(CH') (N) SOPCHPOHr-oH-l 3,6-dichloro-xlantlg lium-9 pheri yl- -methoxy-2'-su1- (5) fonate, wh r in R W, A R n, p and q have the 3,6-dich1oro-xanthylium-9-phenyl-4-carboxy-2-sulmeanings indicated above, or with an amine having the fonate,

3,6-dichloro-xanthylium-9-phenyl-4-carboxy-2'-sul- General Form 1 6 u a 3,6-dichloroxanthy1ium-9-phenyl-4'-hydroxy-5'-carboxy-2-sulfonate, HN 3,6-dibromo-xanthylium-9-pheny1-4-chloro-2'-sul- (6 fonate, and

3,6-dichloro-xanthylium-9-phenyl-4-chloro-2'-sulfonate.

As amines suitable according to the process of the 2122:??? gri li E pie a ra lf b eiwg f nt gg present invention there are considered for example:

and 80 C., if desired, in the presence of an acid-binding 4-aminophenyl-fl-hydroxy-ethylsulfone, agent, and by reacting subsequently the so-obtained mono- 4-aminobenzyl-fi-hydroxy-ethylsulfone,

wherein R and R have the above meanings, in an condensation product with at least 1 mol of an amine 4-aminophenethyl-B-hydroxy-ethyl-sulfone,

of the mentioned Formula 6 or of an amino compound 4-(w-aminomethyl)-phenyl-;3-hydroxy-ethylsulfone, of the mentioned Formula 5 in an aqueous, aqueous- 4-(w-aminoethyl)-phenyl-B-hydroxy-ethylsulfone, organic or organic medium between about 70 and 200 3-hydroxy-4-aminophenyl-fl-hydroxy-ethylsulfone,

0., preferably between about 90 and 160 C., in the 3-hydroxy-4-aminophenyl-fl-hydroxy-ethylsulfone, presence of acid-binding agents and by converting the 3,6-dimethoxy-4-aminophenyl-B-hydroxy-ethylsulfone, so-obtained xanthylium compounds of the general For- 3-methoxy-4-amino-6-methyl-phenyl-B-hydroxy-ethylwherein R R R, R, R R W, A, m, n, q and p have 3-aminophenyl-fi-hydroxy-ethylsulfone,

the meanings indicated above, if desired by treating with 4'-amino-3-benzoyl-aminophenyl-p-hydroxy-ethylsulsulfatizing phosphorylating, or halogenating agents, alkylfone,

or aryl-sulfonic acid halides or alkylor arylcarboxylic 3-amin zyl-fl-hydr xyt y su acid halides or -carboxylic acid anhydrides, into the 3-amino-4-methoxy-phenyl-fl-hydroxy-ethylsulfone,

xanthenium dyestulfs of the mentioned Formula 1, in 3-amino-4-hydroxy-phenyl-fl-hydroxy-ethylsulfonc,

which Z represents the group -OSO H, ---O-PO H 3-amino-4-carboxy-phenyl-fi-hydroxy-ethylsulfone,

-halogen or O-acy1, and by converting the so-obtained 3-amino-4-sulfo-phenyl-li-hydroxy-ethylsulfone,

dyestulfs, if desired, by treatment with alkaline agents 3-amino-4-methoxy-benzyl-p-hydroxy-ethylsulf such as alkali hydroxide or alkali carbonate, for example S-aminO-Z-methyl-rn-xylyl-aLet -bis(sulfonylethanol),

sodium hydroxide or sodium carbonate, into dyestulfs y p y -fi' y y having the General Formula 1, in which Y stands for 4- p y y -(fiv yy the grouping 5-amino-naphthy1-l-( p-hydroxy-ethylsulfone), v

S-amino-naphthyl-1-methylene fl-hydroxy-ethylsulfone,

1 6-aminonaphthy1-1-(B-hydroxy-ethylsulfone) N 4-amino-2'-nitrodiphenylamino-4-(fi-hydroxy-ethylsuland by converting the dyestuffs thus obtained, if desired, fone),

by reaction (addition) with salts of the thiosulfuric acid,

such as sodium thiosulfate, with dialkylamines, for ex- 2-methyl-4-amino-azobenzol-4'-(p-hydroxyethylsulfone) acetic acid, imino-diacetic acid, taurine or N-methyl' taurine.

Suitable organic solvents which, if desired mixed with water, may be present in the first condensation step of the dihalogenxanthylium compounds of the Formula 4 with the amines of the Formula 5 or the Formula 6, are for example acetone, mehanol, ethanol or dimethylformamide. The molar ratio of the components being reacted in the first condensation phase expediently amounts to 1:1, however, a little excess of the amino component, for example about 1.1 mols, may be used.

Suitable organic solvents which may be present, if desired, mixed with water, in the further condensation of the obtained monohalogenated xanthylium compounds with the amines of the Formula 6 or 5 (second condensation step), are for example: dimethylformamide, dimethylsulfoxide, ethylene glycol or glycerine. As acidbinding agents employed in this second condensation step there are considered either the amines used in excess having the Formula 5 or 6 or preferably inorganic compounds such as sodium hydroxide solution, sodiumbicarbonate or sodium carbonate. The addition of an acid-binding agent is recommended because it must be expected otherwise that the condensation does not proceed completely.

in the second condensation phase the amine must be employed at least in a molar ratio of 1:1, calculated on the monohalogen xanthylium compounds to be reacted. The amine may also be used in a higher molar excess. This way is practically used if the amine shall simultaneously serve as acid-binding agent.

The isolation of the xanthenium dyestuffs of the Formula 1 obtained according to the process described, proceeds via salting out, for example with sodium chloride, potassium chloride or sodium sulfate or by spray drying of the preparation mixture.

The new reactive xanthenium dyestuffs of the mentioned General Formula 1 are very suitable for the dyeing and printing of different fibre materials such as wool, silk, leather, polyamide or polyurethane fibres, especially of fibre materials containing cellulose, as for example cotton, spun rayon and linen. They may be employed according to the dyeing and printing processes generally used in the case of reactive dyestuffs on a technical scale, and they yield on cellulose fibre materials in the presence of alkaline agents bright bluish red to violet dyeings and prints being partly very brilliant and having good fastness properties, especially good fastness to wet processing.

In comparison to known dyestuffs from the German patent specifications Nos. 965,902 (Example 49), 1,235,-

6 257 (Example 13) and 1,262,213 (Example 13) the new dyestuffs are distinguished by a better resistance of the alkaline pads baths and alkaline printing pastes.

The following examples serve to illustrate the invention. Parts and percentages are by weight unless otherwise stated.

EXAMPLE 1 20.1 parts of 3-aminophenyl-B-hydroxy-ethylsulfone were reacted in Water at C. with 40.5 parts of 3,6- dichloro-xanthylium-9-phenyl-2-sulfonate. After neutralisation with sodium hydroxide solution, 5 parts of sodium carbonate and 16.2 parts of the sodium salt of N-methyltaurine were introduced into the suspension of the condensation product and the whole was heated under reflux condensation for two hours. The so-obtained dyestuff was isolated by evaporating until dry, then introduced in a finely pulverized form into the threefold amount of concentrated sulfuric acid and stirred until complete dissolution. This solution was poured onto ice and neutralized with calcium carbonate. Subsequently it was filtered and the dyestuif which as free acid corresponded to the formula was isolated by evaporating the filtrate until dry in vacuo at about 80 C.

A red brown powder was obtained which dissolved in water with a bluish red color.

30 parts of the so-obtained dyestuff were mixed with 80 parts of urea and dissolved in 250 parts of water at about 80 C. At 40 C., 400 parts of neutral alginate thickening and 15 parts of sodiumbicarbonate were introduced by stirring into this solution. After printing on cotton fabric the material was dried and steam-treated for 10 minutes. Subsequently the whole was soaped and rinsed. A very brilliant, bluish red printing sample was obtained which had a very good fastness to washing.

EXAMPLE 2 20.1 parts of 4-amino-phenyl-p-hydroxy-ethylsulfone were dissolved in parts of alcohol, mixed with 40.5 parts of 3,6-dichloroxanthy1ium-9-phenyl-2'-sulfonate and boiled for two hours under reflux condensation. The separated product was filtered hot, washed with alcohol and dried at 80 C. in vacuo. The resulting dyestulf powder was then introduced while stirring into 100 parts of water. 4 parts of sodium hydroxide and 16.2 parts of the sodium salt of N-methyl-taurine were added, and the mixture was boiled for two hours under reflux condensation. The resulting dyestutf was salted out with sodium sulfate, filtered and dried. The dyestuff powder was introduced into the threefold amount of sulfuric acid of 100% strength and stirred until complete dissolution. The dyestuff solution was poured onto ice and the dyestutf precipitated. It was filtered, then introduced by stirring into a mixture of ice and water, and after neutralisation with 7 sodium acetate it was salted out by strewing sodium sulfate, filtered and dried. A dark red brown powder was obtained which dissolved in water with a bluish red color. The new xanthenium dyestuff corresponded to the formula solution was poured onto ice, the dyestutf being precipitated. It was suction-filtered, mixed in 500 parts of water and neutralized with sodium acetate. The dyestulf was salted out with sodium chloride.

HOaS-CHrCH;

EXAMPLE 3 24.5 parts of B-amino-4-methoxy-phenyl-p-hydroxy-ethyl-sulfone were dissolved in 200 parts of hot water and mixed portionwise at 80 C. with 40.5 parts of 3,6-dichloroxanthylium-9-phenyl-2'-sulfonate. After stirring for two hours at 80 C. the whole was filtered, washed with water and dried. Then this condensation product was introduced at 130 C. into a solution of 32.5 parts of the sodium salt of N-methyl-taurine and 40 parts of glycol and stirred for 3 hours at this temperature. The reaction mixture was poured into the water and the resulting dyestuff was isolated by salting out with sodium sulfate. The dyestuff suction-filtered, dried and ground was then esterified by introducing into the fourfold amount of sulfuric acid of 100% strength. The resulting solution was introduced by stirring into an ice-water-mixture, the dyestuff being precipitated. It was suction-filtered, mixed with ice water and neutralized with diluted sodium hydroxide solution. The dyestulf was isolated by salting out with sodium sulfate, suction-filtering and drying. The resulting xanthenium dyestufi corresponded to the formula It dissolved in water with a bluish red color and yielded on wool bluish red dyeings fast to washing.

EXAMPLE 4 20.1 parts of 3-amino-p-hydroxy-ethylsulfone were stirred for 1 hour at 80 C. in 100 parts of water with It corresponded to the formula The dyestutf dissolved in water with a bluish red color and provided in the presence of sodium bicarbonate a very brilliant bluish red cotton print having good fastness to wet processing.

EXAMPLE 5 57.3 parts of the condensation product of 3,6-dichloroxanthylium-9-phenyl-2'-sulfonate and B-amino-phenyl-B- hydroxy-ethylsulfone were introduced at C. into a solution of 20 parts of piperidine and 200 parts of gly- 001 and stirred for 1 hour at 130 C. The resulting dyestuff was precipitated by diluting with 700 parts of water, filtered, washed with water and dried. It was introduced in a pulverized form into 200 parts of sulfuric acid of strength and stirred until complete dissolution. The whole was worked up in usual manner and the resulting dyestuif which as free acid corresponded to the formula N: Q mngsoz-om-onro-som was isolated by salting out with sodium chloride. Its aqueous solution had a bluish red color. When dyeing or printing cellulose fibres without alkaline agents but with an alkaline after-treatment, bluish red dyeings or prints fast to washing were obtained.

3,772,335 9 l EXAMPLE 6 The dyestulf dissolved in water with a bluish red color and 8.1 parts of the sodium salt of N-methyl-taurine were powder corresponded to the formula mixed at room temperature with 20 parts of 3,6-dichloroxanthylium-9-phenyl-2'-sulfonate in a mixture consisting of 100 parts of water and 10 parts of sodium acetate. The intermediate obtained was salted out with sodium chlo- So p) ride, filtered and dried. In 100 parts of glycol it was reacted for two hours at 160 C. with 23 parts of Z-meth- A yI-S-amino-benzyl )3 hydroxy-ethylsulfone. The reaction mixture was poured into water, mixed with potassium 10 carbonate until the hydroxy dyestuff was precipitated and Etc-N yv-g filtered. The filtered product was mixed again by stirring with water and neutralized with sulfuric acid. Then the dyestuif was isolated by evaporating until dry and subse- The dyestuff which was obtained as a dark red brown quently esterified at C. with the threefold amount of 15 provided on cellulose fibres in the presence of sodium carconcentrated sulfuric acid. After pouring onto ice the bonate brilliant bluish red dyeings and prints having good whole was neutralized with calcium carbonate, filtered to very good fastness properties.

from the calcium sulfate and the ester dyestufi in the EXAMPLE 8 filtrate was isolated by salting out with sodium sulfate. A dark red violet powder was obtained which dissolved 0 100 parts of the dyestulf obtained according to Exin water with a red violet color. ample 2 were dissolved in 500 parts of water and mixed The new dyestuff corresponded in form of the free acid with 7.5 parts of di'ethylamine. By adding 40 parts of to the formula diluted sodium hydroxide solution, the pH value was ad- N H CHr- S 05-CHr-CHg-O- S 03H HOsSCHzCHa (-1-) V- A 2% dyeing prepared in usual manner in a slightly acidic justed'to 12 and the mixture was stirred overnight. Then bath provided on polyamide fibres after a slight alkaline it was neutralized with diluted hydrochloric acid and after-treatment a red violet dyeing of good fastness to mixed with sodium sulfate. The precipitated dyestufi corwashing. responded to the formula HOQS-CI-Ig-CH:

EXAMPLE 7 It dissolved in water with a bluish red color and provided on cellulose fibre fabrics in the presence of sodium 100 parts of the dyestuff obtained according to Examhydroxide solution a brilliant bluish red print having good pie 1 were dissolved in 500 parts of water and adjusted to to very good fastness properties.

pH 12 by means of 40 parts of diluted sodium hydroxide The dyestulfs listed in the following table may be presolution. After stirring for a short time at this pH value, pared in analogous way, as described in the above examthe solution was neutralized with hydrochloric acid and ples. They yield on cellulose fibre materials likewise dyethe reaction product was salted out, filtered and dried. ings and prints exhibiting similar good fastness properties.

E O m O mO mO O w mO :2 m5 m o mo mo o w mo m 50 mfiom moLmo l m5 m o mo mo o w EQ O 62o? nmmwm mo m "mo w om mo umo l l m6 m o mo mo o w mo o-mo m 82 m MOI N wL L I l ml i m6 m o mo mo o m mQ O 62 m "mo m om mo mo m6 m o mo mo o W mQ O 32 n au m m nmno HHSMLNOLMHOI l .1

m5 m o mo mo o w 6Q Q m Hmo m om mo mo m6 w o mo mo o w g 80 M W QHHo mo mo m ow H 56 m o mo mo o w O .8 m 50 Eom mo mo m6 m m mo mo o WIO :5 m Eo m om mo mo m .5 2.----. m m m om mo mo J .5 f: m mooo mo mooo mo l 6Q llliz. 1 mm m m M o 0 mo m m Eom o mo mo ow 63 AU m m o m o mo nmo m m nets :0 25mm N SH SH a \m M M 2v "NH /Z \O/ Z\ SH 5H 35 m 2. A water-soluble reactive xanthenium dyestulf of the Formula 1 20 represents hydrogen or, when R is hydroxy, carboxyl, R represents hydrogen or lower alkyl, R represents hydrogen or lower alkyl, A represents phenylene, lower alkyl-phenylene, lower alkoxy-phenylene, lower alkyl-alkoxy-phenylene, carboxy-phenylene, hydroxy-phenylene, monosulfophenylene, Y represents a grouping of the formula wherein Z represents hydroxyl, chlorine, an arylsulfonic ester group, lower alkylsulfonic ester group, thiosulfuric acid ester group, phosphoric acid ester group, sulfuric acid wherein R represents hydrogen, chlorine, hydroxyl, lower 15 ester group, dialkylamino, acetyloxy or phenoxy.

alkoxy, lower alkyl, carboxyl or a sulfonic acid group, R

3. The dyestuif of the formula 4. The dyestuif of the formula 50 C CH-OSOH HaC 5. The dystufl? of the formula 6. The dyestuffs of the formula 7. The dyestutf of the formula BOW) 21 22 8. The dyestuff of the formula N HaG-CI-Ig-CH;

9. The dyestuff of the formula 3,100,131 8/1963 Freyermuth et a1. 260374 3,277,075 10/ 1966 Mayhew et a1 260-336 2,242,572 5/1941 Eckert et a1. 260-336 FOREIGN PATENTS CHI 500,513 1/1951 Belgium 260336 OTHER REFERENCES -S 0 rCHrCHz-OSO H N 1 T. S. Gore et 211.: Recent Progress in the Chemistry of N Natural and Synthetic Colouring Matters (1962), Aca H 0 aS-CHg-Cfiz demic Press, pp. 483.

NORM MILESTONE, P E References Cited A S nmary xammer UNITED STATES PATENTS 2,213,460 9/1940 Eckert et a1 260-336 260-247.1,293.58, 152; 8-12, 54, 54.2, 178

2,238,215 4/1941 Eckert et a1 260336 

